Latest Articles for Geology

Study of how rocks react to stress impacts geology and earthquake predictions.

Using technology to improve carbon capture and land surface monitoring.

This article examines how geometry influences the behavior of frictional systems.

This article presents a method to handle integral equations affected by noise.

Exploring the formation of chondrules and their significance in the Solar System.

Exploring the role of cosmic dust in delivering life's essential elements.

Automated methods streamline Sm-Nd data collection, enhancing crustal studies.

Examining how static and evolving disorder affect wave movement in materials.

A look into the unique challenges of analyzing compositional data accurately.

Speckle BCDI enhances the study of crystals with faster and clearer imaging techniques.

This article discusses methods for studying pore spaces and their impact on fluid flow.

A study presents a method to analyze fault zone shapes using recent earthquake data.

A new calibration strategy improves modeling of salt rock for hydrogen storage.

How convection and thermal effects influence plate interactions and supercontinent formation.

A study on effective visualization methods for rare earth element data.

New method uses machine learning to estimate geothermal gradients across Colombia.

This article investigates how pebble shapes change through motion and environmental factors.

Advanced methods shed light on how minerals record Earth's magnetic history.

A look at Venus's atmosphere, surface, and potential for life.

Examining the rocky planets' origins, differences, and unique features.

A new machine learning model improves seismic wave predictions for better disaster response.

New method enhances fluid movement modeling in complex underground environments.

A new data-driven approach improves safety and efficiency in underground construction.

Assessing risks of tsunami events from underwater landslides in Indonesia.

A novel method improves detection of water and gases in geological studies.

This study presents a model analyzing how fractures develop in rocks under heat and pressure.

This article discusses methods used to address unknown data in various fields.

Understanding iron's melting temperature reveals insights about Earth's core and its evolution.

Exploring the importance of fluid flow prediction for resource extraction.

Learn how ontologies help us classify and understand matter.

Study of Enceladus's plume reveals complex water vapor emissions.

New model enhances fluid flow simulation in fractured porous media.

Study reveals how planet size and magma oceans shape atmospheres on lava worlds.

Research on CO2 behavior in Ganymede and Europa reveals implications for habitability.

Examining how elastic waves lose energy based on material frequency.

A new method enhances mineral location predictions using self-supervised learning.

This study uncovers how disordered materials behave under pressure.

Research investigates surface textures of asteroids to unveil their formation history.

SNO+ experiment deep underground aims to learn more about elusive antineutrinos.

This article discusses advanced techniques for modeling fluid behavior in poroelastic materials.